View clinical trials related to Malignant Neoplasm of Breast.
Filter by:To determine the accuracy of NIR/US assessment of tumor vasculature and oxygen changes in predicting and monitoring early neoadjuvant treatment response compared to pathological response.
Fear of cancer recurrence (FCR) is one of the most prevalent, persistent, and disruptive sources of distress for adult cancer survivors. Prevalence rates for FCR have been estimated at up to 89%, with approximately half of cancer survivors reporting clinically significant levels of FCR. Despite the recognized prevalence, persistence, and suffering associated with FCR, effective and accessible treatments for FCR are lacking and urgently needed. Our long-term goal is to develop, evaluate, and implement effective behavioral interventions for cancer survivors suffering with FCR.
Examining the analgesic effect of ultrasound guided Pectoral Blocks on analgesic opioid consumption after surgical removal of breast tissue. This study's uniqueness is in the quantification of the analgesic effect of regional anesthesia on its influence to reduce the use of opioid substances, and the variety of side effects associated with them, which has yet to been described in literature.
Compare the effect of paravertebral block (PVB) with Ropivacaine or placebo on the incidence of chronic pain 3 months after breast cancer surgery.
Identify the best combination of predictive variables that influence ionizing radiation dose and improved image quality through analysis and quantification of PET-CT images in simulators and patients.
The purpose of this research study is to find out about the safety of injecting the gene (DNA) for mammaglobin-A into people with breast cancer. The DNA used in this study was purified from bacteria and contains the gene for mammaglobin-A. Mammaglobin-A is a protein that is highly expressed by breast cancer cells. Injection of mammaglobin-A DNA may be a way to generate an immune response to breast cancer cells. There is evidence that an immune response may be a way to fight cancer. In addition to evaluating the safety of the mammaglobin-A injection, this study is also looking at the immune response that the participant's body has after each injection.
The goal of this clinical research study is to learn if the study drug, alisertib, in combination with chemotherapy (paclitaxel), can shrink or slow tumor growth in women with hormone receptor (HR)-positive, HER2-negative or HR-negative, HER2-negative (triple negative) locally recurrent or metastatic breast cancer. The safety of alisertib in combination with paclitaxel will also be studied. The physical state of the patient, symptoms, changes in the size of the tumor, and laboratory findings obtained while on-study will help the research team decide if alisertib plus paclitaxel is safe and effective in patients with this type of breast cancer. Alisertib belongs to a group of drugs called Aurora kinase inhibitors. Alisertib blocks the activity of Aurora A kinase, a protein that is involved in tumor cell multiplication and survival. Aurora A kinase is expressed at higher than normal levels in many types of cancer, including breast cancer, and preclinical studies suggest that blocking the activity of this protein can lead to the death of cancer cells. Paclitaxel is a chemotherapy drug commonly used to treat many different kinds of cancer, including metastatic breast cancer. The reason to combine alisertib and paclitaxel is that in cancer therapy, combinations of drugs are often more effective as a treatment than either of the same drugs used alone.
A Phase Ib Study of Lapatinib in Combination with Caelyx in Patients with Advanced HER2 positive pretreated Breast Cancer. Treatment Plan: Lapatinib is given at escalating doses orally and continuously on days 1-21. Caelyx is administered at escalating doses in a 60-minute i.v. infusion on day 1. Each cycle is defined as 21 days. Four dose levels are planned. Dose level -1, Caelyx 30 mg/mq & Lapatinib 1000 mg die; dose level 1, Caelyx 30 mg/mq & Lapatinib 1250 mg die; dose level 2, Caelyx 30 mg/mq & Lapatinib 1500 mg die; dose level 3, Caelyx 40 mg/mq & Lapatinib 1500 mg die. Three patients will be initially enrolled in each dose level starting from level 1. If none of the first triplet of patients will develop DLT, the dose will be escalated to the next level for the subsequent three patients. If one of the first triplets of patients will develop first-course DLT, a maximum of 3 additional patients will be entered at the same dose level. The MTD is defined as the dose below that at which two patients have experienced DLT. Lapatinib will be self-administered by the patient in an outpatient setting at the dose of the assigned step. Patients will take the drug daily by mouth on days 1 to 21 of each cycle. Caelyx will be administered by intravenous infusion over an exact period of 1 hour (preferably by a pump to guarantee a constant speed of infusion) on day 1 of each cycle repeated every 21 days. STATISTICAL METHODOLOGY: Evaluation of toxicity: all patients will be evaluable for toxicity from the time of their first treatment with Caelyx and Lapatinib. Evaluation of response: all patients included in the study must be assessed for response to treatment, even if there are major protocol treatment deviations or if they are ineligible. All conclusions should be based on all eligible patients. Subanalyses may then be performed on the basis of a subset of patients, excluding those for whom major protocol deviations have been identified .However, these subanalyses may not serve as the basis for drawing conclusions concerning treatment efficacy, and the reasons for excluding patients from the analysis should be clearly reported. The 95% confidence intervals should also be provided.
This study will test the theory that therapy designed for each individual's tumor will improve outcomes over standard of care in a population that needs a better standard.
Options for the treatment of patients who have progressed after an anthracycline and a taxane are limited. Capecitabine currently has a role in this setting, yet as many as 80% of patients do not respond to this treatment and those who respond eventually develop clinical resistance. The antitumour activity of vinflunine has been demonstrated in patients with breast cancer after exposure to anthracycline and to taxane. Vinflunine plus capecitabine has been shown to be a feasible combination for patients previously treated with an anthracycline and a taxane. Each drug in combination can be administered at efficacious doses. This population has few therapeutic options with established clinical benefit. The development of a new regimen and potential new standard of care for this group is important. - Primary objective: • to compare in patients with advanced breast cancer pretreated with anthracycline and taxane the efficacy of the combination of vinflunine and capecitabine with capecitabine alone, in terms of progression-free survival. - Secondary objectives: - to evaluate the response rate, the time to response and the duration of response in both arms - to compare the disease control rate between arms - to evaluate the duration of disease control in both arms - to evaluate the overall survival in both arms - to evaluate safety Methodology This multicentre, open-label, randomised, Phase III study will enrol a total of 334 patients with advanced breast cancer who have previously been treated with an anthracycline and a taxane. Patients will be randomised in a 1:1 ratio to receive VFL plus capecitabine (Arm A) or capecitabine alone (Arm B).